Single secure environment session generating multiple indicia

ABSTRACT

Systems and methods which are adapted to generate multiple indicia in a single secure environment session are described. Embodiments provide for generation of a plurality of postage indicia in a single postage security device (PSD) transaction, whereby the PSD loads and unloads corresponding virtual PSD information a single time for generating the plurality of postage indicia (i.e., in a single secure environment session). The indicia generated in a same secure environment session according to embodiments of the invention may comprise a plurality of indicia requested by a same, single user. Additionally or alternatively, the indicia generated in the same secure environment session may comprise a plurality of indicia requested by multiple different users.

CROSS-REFERENCE TO RELATED APPLICATIONS

The present application is a continuation of co-pending, commonlyassigned, U.S. patent application Ser. No. 14/255,713 entitled “SINGLESECURE ENVIRONMENT SESSION GENERATING MULTIPLE INDICIA,” filed Apr. 17,2014, which itself is related to co-pending and commonly assigned U.S.patent application Ser. No. 12/316,542 entitled “Computer-BasedValue-Bearing Item Customization Security,” filed Dec. 11, 2008, Ser.No. 14/055,473 entitled “Systems and Methods Facilitating ShippingServices Rate Resale” filed Oct. 16, 2013, the disclosures of which arehereby incorporated herein by reference.

TECHNICAL FIELD

The invention relates generally to generating indicia, such as valuebearing indicia, and more particularly to using a single security devicesecure environment session to generate multiple indicia.

BACKGROUND OF THE INVENTION

Various forms of value bearing indicia have been developed and usedthroughout the world. Such value bearing indicia often takes the form ofan electronic and/or printed data packet adapted for providing arepresentation of value sufficient to be acceptable as proof of paymentfor goods, services, etc. For example, postage indicia have been usedfor a number of years as proof of payment for postal services.

Because such indicia represents a form of value, the indicia itself andthe process for its generation is typically provided some form ofsecurity. For example, the indicia may implement digital signatures,secure hash techniques, cryptographic techniques, etc. The process forgenerating the indicia may be performed within a secure environment,such as within the confines of a secure processor-based system (e.g.,cryptocard, such as the 4764 cryptographic coprocessor available fromInternational Business Machines Corporation). For example, postageindicia, such as the information based indicia (IBI) generated byprocessor-based open systems (e.g., stand-alone or client/server generalpurpose systems operable under control of an instruction set providingpostage indicia metering functionality) in accordance with the UnitedStates Postal Service (USPS), may be generated within a postal securitydevice (PSD) and may include digital signatures generated by acryptographic processor of the PSD.

In order to perform as an indicia generation device, such secureenvironments must typically be loaded with the requisite indiciageneration host information, perform the steps for generation of theindicia, and subsequently have the indicia generation host informationunloaded from the secure environment to free the secure environment forother operations (e.g., generation of indicia for different users, fordifferent accounts, for different uses, etc.). For example, in thepostage indicia context, a cryptocard may be provided with indiciageneration host information, such as may comprise ascending anddescending postage registers, cryptographic postal keys, loggingrecords, etc., (referred to herein as “virtual PSD information”) toconfigure the otherwise “generic” cryptocard as a particular PSD (e.g.,a specific user's PSD, a PSD for a specific postage account, etc.) foruse in generating an indicia. Once the indicia has been generated, thevirtual PSD information with its updated data (e.g., register values)reflecting generation of the indicia may be offloaded from thecryptocard and stored in a database for subsequent use. Because thevirtual PSD information contains the information establishing thecryptocard as the PSD (i.e., the PSD “personality”), this PSDinformation is generally encrypted when passed outside of the secureenvironment of the cryptocard.

As can be appreciated from the foregoing, considerable data transfer andprocessing may be associated with the generation of indicia. Inparticular, not only must the virtual PSD information be retrieved andloaded into the secure environment of the cryptocard in the foregoingexample, but the virtual PSD information must be decrypted once loadedprior to use. Correspondingly, the virtual PSD information must again beencrypted once the indicia is generated prior to offloading of thevirtual PSD information from the cryptocard. This processing and datatransfer is in addition to that directly associated with the generationof the indicia itself, including the cryptographic functions typicallyemployed to provide a digital signature. In order to provide therequisite logging and register value accountability, the process must berepeated for each indicia generated according to the presentimplementations.

Some use scenarios may provide a situation in which a user is in need ofor otherwise desires to generate a plurality of indicia in a samesession. For example, a user may desire to generate a plurality ofpostage indicia, such as to provide a supply of postage indicia for someperiod of time (e.g., a week or month). Such scenarios have nottraditionally been the focus of service by the processor-based opensystems used in generating IBI. However, as can be appreciated from theforegoing, where such processor-based systems utilizing virtual PSDinformation as described above can require appreciable time (in computerprocessing terms) to load/unload the data, decrypt/encrypt the data,update the registers and logs, generate the postage indicia and repeatfor each indicia generated. There is currently no solution implementedfor reducing the time associated with the repeated loading/unloadingdata, decrypting/encrypting, updating registers and logs, and generatingpostage indicia required for generation of each indicia of the pluralityof indicia.

Another example of a use scenario which may require appreciable time forgenerating a plurality of indicia is that of a multiuser postage meter,such as in the case an enterprise postage meter or a centralized postagemeter serving a number of clients (e.g., remote retail kiosks, postoffice point of sale terminals, etc.). In such a scenario, multipleusers (e.g., using different client systems) may request postage indiciageneration simultaneously or in close temporal proximity. Currentlyavailable solutions for providing service to the different users hasbeen to implement a PSD pool (i.e., a plurality of PSDs operable to eachindependently load virtual PSD information for separately metering andgenerating postage indicia) at the centralized postage meter. Althoughsuch a solution may be effective at reducing delay associated with thegeneration of multiple postage indicia, the solution is relativelycostly and requires maintaining prepaid account balances (i.e., postagemeter value balances) with respect to each such virtual PSD.

BRIEF SUMMARY OF THE INVENTION

The present invention is directed to systems and methods which areadapted to generate multiple indicia in a single secure environmentsession. For example, embodiments of the present invention provide forgeneration of a plurality of postage indicia in a single PSDtransaction, whereby the PSD loads and unloads corresponding virtual PSDinformation a single time for generating the plurality of postageindicia (i.e., in a single secure environment session).

The indicia generated in a same secure environment session according toembodiments of the invention may comprise a plurality of indiciarequested by a same, single user. For example, the multiple indicia maycomprise a number of postage indicia estimated to supply the user forsome period of time (e.g., a week or a month). Additionally oralternatively, the indicia generated in the same secure environmentsession may comprise a plurality of indicia requested by multipledifferent users (e.g., different users of an enterprise metering system,users of different client systems served by a metering system server,etc.).

The foregoing has outlined rather broadly the features and technicaladvantages of the present invention in order that the detaileddescription of the invention that follows may be better understood.Additional features and advantages of the invention will be describedhereinafter which form the subject of the claims of the invention. Itshould be appreciated by those skilled in the art that the conceptionand specific embodiment disclosed may be readily utilized as a basis formodifying or designing other structures for carrying out the samepurposes of the present invention. It should also be realized by thoseskilled in the art that such equivalent constructions do not depart fromthe spirit and scope of the invention as set forth in the appendedclaims. The novel features which are believed to be characteristic ofthe invention, both as to its organization and method of operation,together with further objects and advantages will be better understoodfrom the following description when considered in connection with theaccompanying figures. It is to be expressly understood, however, thateach of the figures is provided for the purpose of illustration anddescription only and is not intended as a definition of the limits ofthe present invention.

BRIEF DESCRIPTION OF THE DRAWING

For a more complete understanding of the present invention, reference isnow made to the following descriptions taken in conjunction with theaccompanying drawing, in which:

FIGS. 1A and 1B show systems adapted to provide generation of multipleindicia in a single secure environment session according to embodimentsof the present invention;

FIGS. 2A and 2B show flow diagrams of operation to provide generation ofmultiple indicia in a single secure environment session according toembodiments of the present invention;

FIG. 3 shows a functional block diagram of a portion of systems operableto compose one or more bulk indicia request from multiple indiciarequests according to embodiments of the present invention; and

FIG. 4 shows a flow diagram of operation to provide dividing of largebulk indicia requests in a plurality of smaller batch requests.

DETAILED DESCRIPTION OF THE INVENTION

FIGS. 1A and 1B show embodiments of systems adapted to providegeneration of multiple indicia in a single secure environment session.In particular, system 100A of FIG. 1A shows an exemplary embodimentoperable to generate multiple indicia in a same secure environmentsession requested by a same, single user (e.g., the single user maycomprise a single individual, multiple individuals from a same entity orsource, etc.). Correspondingly, system 100B of FIGURE B shows anexemplary embodiment operable to generate multiple indicia in a samesecure environment session requested by multiple different users (e.g.,the multiple users may comprise multiple independent and unaffiliatedusers, multiple affiliated users operating independently, etc.). Itshould be appreciated that, although the embodiments of FIGS. 1A and 1Bare described as being exemplary of a system responsive to a request formultiple indicia from a single user (system 100A) or a system responsiveto requests for indicia from multiple users (system 100B), either systemaccording to embodiments may be responsive to requests for multipleindicia from a single user and/or to requests for indicia from multipleusers.

In operation according to embodiments herein, the indicia requested andgenerated comprises value bearing indicia (i.e., indicia representativeof an amount of pecuniary value, such as may be utilized for proof ofpayment, payment for goods or services, etc.). In particular, theembodiments of systems 100A and 100B illustrated in FIGS. 1A and 1B areshown to be operable with respect to value bearing indicia comprisingpostage indicia. For example, the postage indicia requested andgenerated according to embodiments herein may comprise IBI, as may begenerated by processor-based open systems in accordance with the USPS.It should be appreciated, however, that the concepts herein areapplicable to a variety of indicia, and thus are not limited to thespecific indicia of the examples described herein.

Embodiments herein operate to provide a form of security (e.g., digitalsignatures, secure hash, encryption, etc.) with respect to the valuebearing indicia generated in order to facilitate protection of the valuethereof. The process for generating the requested indicia is performedwithin a secure environment (e.g., as may be provided by one or morecrypto modules) according to the illustrated embodiments. For example,cryptocard 125, such as may comprise the 4764 (single threaded) or 4765(multi-threaded) cryptographic coprocessors available from InternationalBusiness Machines Corporation, provides a crypto module facilitating asecure environment in which postage indicia may be generated thusproviding a form of postage security device (PSD). Of course, otherforms of crypto modules and other devices for providing the requisitesecure environment may be utilized to provide a PSD or other secureenvironment in accordance with embodiments of the invention, such assmartcards, trusted platform modules (TPMs), touch memory utilitybuttons (TMUs), etc. Although a single cryptocard is shown in theillustrated embodiment, it should be appreciated that a plurality ofsuch devices may be provided with respect to postal services system110A, such as to facilitate serving a number of requests for indicia(e.g., a plurality of bulk indicia requests from the same of differentusers). Irrespective of the particular secure environmentimplementation, as will be better understood from the discussion whichfollows, in operation according to embodiments herein a plurality ofpostage indicia are generated in a single secure device session.

In providing a system adapted to provide generation of multiple indiciain a single secure environment session, system 100A of FIG. 1A comprisespostal service system 110A in communication with client device 140A vianetwork 150. Postal services system 110A is adapted to generate multipleindicia in a same secure environment session requested by a user ofclient device 140A. In particular, postal services system 110A isoperable in response to a request for multiple postage indicia fromclient device 140A to initiate a single PSD transaction, wherebycryptocard 125 loads and unloads corresponding virtual PSD information(e.g., any of virtual PSD information 122-124 stored by postal database121) a single time for generating the plurality of postage indicia.

It should be appreciated that the components of postal service system110A may be implemented as a single system, such as a single server, oras a distributed system, such as a server farm, a number of host systemsdisposed remotely with respect to each other, etc. For example, postageserver 120 and bridge server 130 of postal services system 110A may behosted by a same server. Alternatively, postage server 120 and bridgeserver 130 may be hosted by different servers according to embodimentsherein.

Irrespective of a single or distributed implementation, postal servicessystem 110A of embodiments may comprise a processor-based systemoperable under control of an instruction set or instruction setsdefining operation as described herein. Postal services system 110A ofembodiments comprises one or more processors (e.g., a CORE or PENTIUMprocessor available from Intel, Inc.) and requisite processor readable(e.g., computer readable) memory (e.g., random access memory (RAM), readonly memory (ROM), flash memory, disk memory, solid state drive (SSD)memory, optical memory, and/or the like) and input/output components(e.g., display, network interface card (NIC), keyboard, digital pointer,printer, and/or the like) coupled to a processor of the one or moreprocessors via a data bus.

Postage server 120 may comprise a processor or processors and portion ofthe processor readable memory of postal services system 110A andcorresponding instruction set operable to define postage serveroperation as described herein, including generation of multiple indiciain a single secure environment session. Postage server 120 ofembodiments may comprise a server (e.g., web server) or servers orvirtual server operable within a suitable host environment (e.g., withina postal services system server). Postage server 120 may, for example,comprise a system substantially as described with respect to theshipping service infrastructure in the above referenced patentapplication entitled “Systems and Methods Facilitating Shipping ServicesRate Resale”, adapted to provide generation of multiple postage indiciaherein.

Postage server 120 of the illustrated embodiment comprises cryptocard125 configurable as a PSD according to embodiments herein and operableto provide a secure environment in which postage indicia (and/or otherdesired indicia) may be securely generated. Postal database 121 of theillustrated embodiment comprises a number of data files providingvirtual PSD information (shown here as virtual PST information 122-124).Virtual PSD information 122-124 of embodiments comprises informationsuitable for temporarily configuring cryptocard 125 as a PSD for aparticular postage meter license or licenses. For example, each ofvirtual PSD information 122-124 may comprise ascending and descendingregisters, postage indicia strike registers, log files, postal accountidentification, meter license number, etc. utilized in postage indiciametering operations for different users or user accounts. The virtualPSD information is preferably encrypted by cryptocard 125 for storage inpostal database 121 to thereby protect this data when outside theconfines of a secure environment.

It should be appreciated that, although postal database 121 is showndisposed within postage server 120, the postal database may be externalor remote thereto. For example, some portion of virtual PSD informationmay be stored in one or more database disposed locally with respect topostage server 120 while another portion of virtual PSD information maybe stored in one or more database disposed remotely with respect topostage server 120.

Bridge server 130 may comprise a processor or processors and portion ofthe processor readable memory of postal services system 110A andcorresponding instruction set operable to define bridge server operationas described herein, including user authentication, user accountassociation/identification, etc. Bridge server 130 of embodiments maycomprise a server (e.g., web server) or servers or virtual serveroperable within a suitable host environment (e.g., within a postalservices system server). Bridge server 130 as may be utilized accordingto embodiments of the invention may, for example, comprise a systemsubstantially as described in U.S. Pat. No. 8,046,823 entitled “SecureApplication Bridge Server,” the disclosure of which is incorporatedherein by reference.

Client device 140A of embodiments herein may comprise any number ofsystem configurations used by a user for requesting, obtaining, and/orprinting desired indicia, such as postage indicia. For example, clientdevice 140A may comprise a general purpose processor-based system (e.g.,personal computer (PC) having a processor, memory, suitable input/output(I/O) functionality, and operating system (OS)) operating under controlof postage client 141A providing a client application (e.g., PC client,web client, mobile client, tablet client, etc.) to interface with postalservices system 110A and provide operation as described herein.Additionally or alternatively, client device 140A may comprise aprocessor-based device such as a smart phone, a tablet device, apersonal digital assistant (PDA), an Internet appliance (e.g., aprocessor-based postage printer Internet appliance), etc., having therequisite instruction set (e.g., postage client 141A) and processing andI/O resources. The interface architecture implemented according toembodiments of the invention not only accommodate standalone clientapplications, but may support other forms of client access, such as webbased applets, third party software access integration, etc. Printer142A, such as may comprise any printer configuration (e.g., laserprinter, ink jet printer, thermal printer, etc.) suitable for printingor otherwise rendering desired indicia, is coupled to client device 140Aof the illustrated embodiment. It should be appreciated that althoughone client device is shown in FIG. 1A, any number and combination ofconfigurations of client devices may be accommodated according toembodiments.

Network 150 provides communication links with respect to client devicesand by and between components of the postal services system forfacilitating requesting, generating, and/or printing of desired indicia.Accordingly, the links of network 150 are operable to provide suitablecommunication links for facilitating cooperative interaction and datatransfer as described herein. Network 150 of embodiments may thuscomprise one or more of a local area network (LAN), metropolitan areanetwork (MAN), wide area network (WAN), wireless LAN (WLAN), theInternet, intranet, extranet, cable transmission system, cellularcommunication network, and/or the like.

Flow 200A of FIG. 2A illustrates operation of system 100A to providegeneration of multiple indicia in a single secure environment sessionaccording to embodiments herein. Operation of the illustrated embodimentof flow 200A supports generating multiple indicia in a same secureenvironment session requested by a same, single user. Accordingly, atblock 201 postage client 141A gathers multiple postage indicia requestsfor the user and composes one or more bulk postage indicia requests. Forexample, a user may interact with postage client 141A to select a numberof postage indicia to be generated, such as to provide a supply ofpostage indicia estimated to serve the user for a period of time.Additionally or alternatively, the user may perform various operationsfor which postage indicia are needed (e.g., generating one or moreletters, envelopes, or other correspondence, process shipping labels,etc.) from which postage client 141A may gather postage requests,perhaps over the course of time (e.g., throughout the work day).Accordingly, the multiple postage indicia requests of the bulk postageindicia request may be part of an express desire for multiple postageindicia from the user, an aggregation of separate postage indicia needs,or a combination thereof. Irrespective of the particular impetus for themultiple postage indicia, a bulk request for such multiple postageindicia is generated according to embodiments of the invention.

A bulk postage indicia request of embodiments comprises informationsufficient to generate multiple desired postage indicia for therequesting user. Accordingly, a bulk postage indicia request may includeinformation such as postage amounts, multiple special services, mailclasses, hidden postage information, insurance information, trackingnumbers, etc. Moreover, bulk postage indicia requests preferably includeuser identification information (e.g., user account information, usercredentials (e.g., user name, password, digital certificate, etc.),and/or the like), such as may be used to validate the user as anauthorized user of the postal services system, to identify an accountfrom which value for the postage indicia is to be debited and/or towhich value is to be charged, to identify virtual PSD informationassociated with the requesting user, etc.

At block 202 of the illustrated embodiment, postal services system 110Ais accessed and the bulk postage indicia request is made. For example,postage client 141A may communicate with postal services system 110A vianetwork 150 to initiate a session for generating multiple postageindicia, such as by communicating the bulk postage indicia requestand/or other information (e.g., user credentials) from client device140A to bridge server 130. Bridge server 130 of embodiments may operateto authenticate the user, such as using user identification informationof the bulk postage indicia request and/or user credentials providedtherein or therewith. Such authentication may operate to identify theuser as being authorized to receive the services of postal servicessystem 110A. Additionally or alternatively, such authentication mayassociate the user with one or more accounts (e.g., as may berepresented by corresponding ones of the PSDs of virtual PSD information122-124) accessible to postal services system 120.

Having made the bulk postage indicia request, the bulk postage indiciarequest is received and processed for PSD operation at block 203 of theillustrated embodiment. For example, assuming the user authentication issuccessful, bridge server 130 may pass the bulk postage indicia request,or some portion thereof, to postage server 120 for generating themultiple postage indicia. In operation according to embodiments, logicof postage server 120 operates to process the bulk postage indiciarequest for facilitating operation by cryptocard 125 in generatingmultiple postage indicia in a same secure environment session. Forexample, postage server 120 may operate to associate the bulk postagerequest with particular virtual PSD information of virtual PSDinformation 122-124 storing postage value available to the user makingthe request. Additionally or alternatively, postage server 120 mayprovide processing of the bulk postage indicia request to provide therequest, or some portion thereof, in a form usable by the PSD, such asto format the data for use by the PSD (e.g., serialize the data in aform understandable by logic of the PSD), to utilize a protocolcompatible with the PSD, etc.

In operation according to embodiments, processing with respect to thebulk postage indicia request provided by logic of postal services system110A may comprise a number of operations for facilitating postageindicia generation by cryptocard using virtual PSD information of postaldatabase 121. For example, logic of postal services system 110A maycalculate the total postage amount from the bulk postage indicia requestdata and determine if adequate total postage amount is available in theuser PSD record for the bulk postage indicia request before acquiring asecure module (e.g., cryptocard 125) for generation of the postageindicia.

At block 204 of the illustrated embodiment a PSD bulk request (e.g., thebulk postage indicia request as processed by postal services system110A) is provided to cryptocard 125. For example, after processing thebulk postage indicia request for facilitating operation by cryptocard125 in generating multiple postage indicia in a same secure environmentsession, logic of postal services system 110A may provide the PSD bulkrequest to cryptocard 125 to initiate generation of the multiple postageindicia. In operation according to embodiments, providing the PSD bulkrequest to the cryptocard by logic of postal services system 110A maycomprise a number of operations. For example, logic of postal servicessystem 110A may operate to select a particular crypto module (e.g.,cryptocard 125) for generation of the multiple postage indicia from aplurality of crypto modules (e.g., to select an available crypto module,to select a crypto module having specific capabilities, to provide loadbalancing among a pool of crypto modules, etc.). The selected cryptomodule may thereafter be locked for operation of the secure environmentsession to generate the multiple postage indicia.

It should be appreciated that the providing of the PSD bulk request maybe done in association with providing other data to the cryptocard. Forexample, logic of postal services system 110A may operate to select aparticular virtual PSD record for use in generating the multiple postageindicia. The virtual PSD information provided to cryptocard 125 may, forexample, be selected based upon user identification, user credentials, aPSD for providing services authorized with respect to the requestinguser, etc. and that the virtual PSD has sufficient account valueassociated therewith to support generation of the requested postageindicia. The selected virtual PSD information of virtual PSD information122-124 may be locked (e.g., to prevent its simultaneous use withrespect to another crypto module, whereby value represented thereby maybe consumed more than once) and the selected virtual PSD informationprovided to cryptocard 125 in order to configure cryptocard 125 foroperation as a particular PSD.

Further, in association with the providing of the PSD bulk request tothe cryptocard, logic of postal services system 110A may acquire andlock a check point record for that crypto module (e.g., from postaldatabase 121). The check point record may, for example, compriseinformation regarding the state of the crypto module after the lasttransaction performed by the crypto module. A postal database ofembodiments may store check point records for each available cryptomodule. Such check point information may be utilized in providing anatomic transaction with respect to the generation of the multiplepostage indicia. That is, if operation to generate the multiple postageindicia is interrupted or otherwise fails to complete the completeprocess of generating all the multiple postage indicia, and possiblylogging information associated therewith, a check point recordindicating a state of the PSD prior to initiating the postage indiciageneration operation may be used to roll the PSD data back to its stateprior to initiating the failed multiple postage indicia generationtransaction. Such check point record information may be provided tocryptocard 125, such as with or in association with the virtual PSDinformation and/or PSD bulk request.

Having received the PSD bulk request according to flow 200A of theillustrated embodiment, cryptocard 125 operable as a PSD generates themultiple postage indicia of the PSD bulk request in a single secureenvironment session at block 205 of the illustrated embodiment. That is,cryptocard 125 of embodiments is operable to load and decrypt theappropriate virtual PSD information, configure the memory (e.g.,ascending register, descending register, strike count register, etc.) ofthe cryptocard as the corresponding PSD, generate each postage indiciaof the multiple postage indicia, update appropriate PSD data (e.g.,ascending register value, descending register value, strike countregister value, etc.), and encrypt the virtual PSD information foroffloading from the cryptocard. In operation according to embodiments,logic of cryptocard 125 may determine the number of postage indicia itis being requested to generate (e.g., for configuring logic for anappropriate number of iterations to generate the postage indicia),determine the total value for the postage indicia to be generated (e.g.,for confirming that sufficient value is available for completing thebulk postage indicia transaction), determine the size of the memory forthe indicia generation based on the total number of the postage requests(e.g., for confirming that sufficient memory space is available forgeneration and temporary storage of the postage indicia and forallocating that memory space), and generate multiple postage indiciadata (e.g., data packets from which postage indicia may be printed).

Logic of the PSD may, for example, operate to authenticate the request(e.g., as a request from a valid server or other requesting systemand/or as a request from a valid user or users). Additionally oralternatively, logic of the PSD may operate to verify that sufficientvalue is present in the PSD for generation of the requested postageindicia. For example, the PSD logic may implement a loop in which thevalue for each of the multiple requested postage indicia is identifiedand summed to determine a total value for the requested indicia. Thistotal value may be compared to the value available from the PSD (e.g.,the PSD descending register) to determine if sufficient value is presentto allow generation of the multiple requested indicia. It should beappreciated that this verification of available value by the PSD may beperformed in addition to a determination by the postage server or othersystem external to the PSD regarding sufficient value, such as toprovide a secure and/or accurate verification of sufficient value priorto generation of the requested indicia. Initiation of generation of themultiple postage indicia may be prevented if a sufficient amount ofvalue for the total amount is not available. If, however, sufficientvalue is available, the logic of the PSD may again implement a loop togenerate each of the requested postage indicia, storing the generatedpostage indicia data for providing to the postage server in a singleresponse. In operation according to embodiments, the ascending anddescending registers of the PSD are adjusted as each of the multiplepostage indicia are generated. Additionally, a logging register ofembodiments of the PSD is used to sum the value of each of the generatedpostage indicia to provide a total amount used with respect to loggingdata (e.g., used in generation of an audit indicia for loggingpurposes).

It should be appreciated that cryptocard 125 of embodiments may operateto generate more than the requested multiple postage indicia whenperforming operation for generating multiple postage indicia in a singlesecure environment session. For example, logic of the cryptocard maygenerate logging and/or other data unique to the secure environmentmultiple postage indicia session. In operation according to embodiments,such logging data may include the number of indicia generated in thesession, the total value of the indicia generated, the time/date of thegeneration session (e.g., the starting time, the ending time, or both),the starting and/or ending register values (e.g., ascending register,descending register, etc.), transaction number or other transactionidentification information, meter/license number or other identificationinformation, and the like.

At block 206 of the illustrated embodiment, cryptocard 125 may returnlogging or audit information for the multiple postage indicia forprocessing, storage, and/or reporting by postal services system 110A.For example, after the cryptocard generates postage indicia data for amultiple postage indicia request, intermediary code for the cryptocardmay operate to write an audit log entry to one or more storage device(e.g., the audit log information may be written to a postal server diskor other storage device other than postal database 121 to avoidtampering or to otherwise facilitate reliable auditing of the indiciageneration transactions). Such audit information may compriseinformation regarding the number, value, type, etc. of the generatedpostage indicia, identification of the PSD (e.g., virtual PSDinformation) used to generate the postage indicia, and/or the like.Additionally or alternatively, such audit information may comprise oneor more audit indicia, generated by cryptocard 125 in association withthe multiple postage indicia, providing aggregated audit information(e.g., a transaction number or other identification information,meter/license number, the total value for all the multiple postageindicia, starting and/or ending register values, number of postageindicia generated, identification information for each of the multiplepostage indicia, time stamp for the multiple indicia generation session,etc.). An audit indicium of embodiments comprises a standard indiciaformat (e.g., the same format as the generated postage indicia)including some or all of the above information (e.g., a 16 bit number inthe range from 1 to 64 k providing transaction identification, an actualnumber of indicium created, and the ending ascending and descendingregister values). Any or all of the foregoing information may be furtherprocessed, stored, and/or reported by logic of postal services system110A. In operation according to embodiments, after such audit loginformation is written successfully, logic of cryptocard 125 may providethe generated postage indicia data for the multiple postage indicia, theupdated virtual PSD information, and updated check point record to logicof postal services system 110A outside of the secure environment. Itshould be appreciated that the indicium generated in response to therequest for multiple postage indicia may be associated with the auditinformation (e.g., the audit indicium through matching of identificationinformation, such as the aforementioned transaction number,meter/license number, and/or time stamp information), such as for auditpurposes, validation of the indicia, etc.

Accordingly, at block 207 of the illustrated embodiment of flow 200A thegenerated multiple postage indicia are passed from the secureenvironment of cryptocard 125. For example, the generated multiplepostage indicia may be returned to logic of postage server 120, such asfor further processing and providing to the requesting client device. Itshould be appreciated that information in addition to that of themultiple postage indicia may be returned from cryptocard 125 inassociation with the generated postage indicia. For example, cryptocard125 may return the virtual PSD information, updated to reflectgeneration of the multiple postage indicia, for storage in postaldatabase 121.

At block 208, postal services system 110A returns the generated multiplepostage indicia to the requesting client device. It should beappreciated that logic of postal services system 110A may providefurther processing with respect to the generated multiple postageindicia prior to its returning the generated multiple postage indicia toclient device 140A. For example, postal services system 110A may provideprocessing of the multiple postage indicia returned by cryptocard 125 toprovide the postage indicia data, or some portion thereof, in a formusable by the requesting client device(s) or other systems of system100A, such as to format the data for use by client device 140A and/orfor processing and communication by bridge server 130. Embodiments ofpostal services system 110A may provide processing to associate themultiple postage indicia with the particular bulk postage indiciarequest made by postage client 141A in order to facilitate properlyidentifying the postage indicia with the operations at client device140A for which the postage indicia was generated. Additionally oralternatively, such processing may comprise packaging the data of thegenerated multiple postage indicia in one or more data packets optimizedor otherwise suitable for efficient communication to client device 140Avia network 150.

Having received the requested multiple postage indicia, client device140A may print or otherwise consume the multiple postage indicia atblock 209. For example, postage client 141A may receive the multiplepostage indicia data and generate postage indicia image data packets(e.g., bitmap images of IBI, such as may comprise human readableinformation and machine readable information, such as PDF 417 or datamatrix barcode) suitable for controlling printer 142A to print postageindicia acceptable to a postal service or other shipping serviceprovider.

In providing a system adapted to provide generation of multiple indiciain a single secure environment session, system 100B of FIG. 1B comprisespostal service system 110B in communication with client devices140B-140D via network 150. Postal services system 110B is adapted tooperable to generate multiple indicia in a same secure environmentsession requested by multiple different users of client devices140B-140D. In particular, postal services system 110B is operable inresponse to a request for multiple postage indicia combined fromrequests made by client devices 140B-140D, whereby cryptocard 125 loadsand unloads corresponding virtual PSD information (e.g., any of virtualPSD information 122-124 stored by postal database 121) a single time forgenerating the plurality of postage indicia.

Although components of postal service system 110B (e.g., postage webservice 160) may be adapted to facilitate generation of multiple postageindicia requested by different users, components of postal servicesystem 110B (e.g., postage server 120) may be configured as describedabove with respect to postal service system 110A. Moreover, thecomponents of postal service system 110B may be implemented as a singlesystem, such as a single server, or as a distributed system, such as aserver farm, a number of host systems disposed remotely with respect toeach other, etc. For example, postage server 120 and postage web service160 of postal services system 110B may be hosted by a same server.Alternatively, postage server 120 and postage web service 160 may behosted by different servers according to embodiments herein.

Irrespective of a single or distributed implementation, as with postalservices system 110A described above, postal services system 110B ofembodiments may comprise a processor-based system operable under controlof an instruction set or instruction sets defining operation asdescribed herein. Accordingly, postal services system 110B ofembodiments comprises one or more processors (e.g., a CORE or PENTIUMprocessor available from Intel, Inc.) and requisite processor readable(e.g., computer readable) memory (e.g., RAM, ROM, flash memory, diskmemory, SSD memory, optical memory, and/or the like) and input/outputcomponents (e.g., display, NIC, keyboard, digital pointer, printer,and/or the like) coupled to a processor of the one or more processorsvia a data bus.

Postage server 120 of postal services system 110B of embodiments isconfigured as described above with respect to postal services system110A. Accordingly, postage server 120 may comprise a processor-basedsystem, including cryptocard 125 configurable as a PSD, in communicationwith postal database 121. Although postal database 121 is shown disposedwithin postage server 120, it should be appreciated that the postaldatabase may be external or remote thereto.

Postage web server 160 may comprise a processor or processors andportion of the processor readable memory of postal services system 110Band corresponding instruction set operable to define postage web serveroperation as described herein, including queuing user requests forpostage indicia, grouping postage indicia requests, composing bulkpostage indicia requests, parsing/assigning generated postage indicia tothe appropriate requesting user, etc. Postage web server 160 ofembodiments may comprise a server (e.g., web server) or servers orvirtual server operable within a suitable host environment (e.g., withina postal services system server).

Client devices 140B-140D of embodiments herein may comprise any numberof system configurations used by a user for requesting, obtaining,and/or printing desired indicia, such as postage indicia. For example,one or more of client devices 140B-140D may comprise a general purposeprocessor-based system (e.g., personal computer (PC) having a processor,memory, suitable input/output (I/O) functionality, and operating system(OS)) operating under control of a postage web app (e.g., a respectiveone of postage web apps 143B-143D) providing a client application (e.g.,PC client, web client, mobile client, tablet client, etc.) to interfacewith postal services system 110B and provide operation as describedherein. Additionally or alternatively, one or more of client devices140B-140D may comprise a processor-based device such as a smart phone, atablet device, a personal digital assistant (PDA), an Internet appliance(e.g., a processor-based postage printer Internet appliance), etc.,having the requisite instruction set (e.g., a respective one of postageweb apps 143B-143D) and processing and I/O resources. The interfacearchitecture implemented according to embodiments of the invention notonly accommodate web based applet implementations, but may support otherforms of client access including standalone client applications, thirdparty software access integration, etc. Printers 142B-142D, such as maycomprise any printer configuration (e.g., laser printer, ink jetprinter, thermal printer, etc.) suitable for printing or otherwiserendering desired indicia, are coupled to respective ones of clientdevices 140B-140D of the illustrated embodiment. It should beappreciated that although three client devices are shown in FIG. 1B, anynumber and combination of configurations of client devices may beaccommodated according to embodiments.

As described above with respect to the embodiment of FIG. 1A, network150 provides communication links with respect to client devices and byand between components of the postal services system for facilitatingrequesting, generating, and/or printing of desired indicia. Accordingly,network 150 shown in the embodiment of FIG. 1B may comprise one or moreof a LAN, MAN, WAN, WLAN, the Internet, intranet, extranet, cabletransmission system, cellular communication network, and/or the like.

Flow 200B of FIG. 2B illustrates operation of system 100B to providegeneration of multiple indicia in a single secure environment sessionaccording to embodiments herein. Operation of the illustrated embodimentof flow 200B supports generating multiple indicia in a same secureenvironment session requested by multiple different users. Accordingly,at block 211, postal services system 110B is accessed and desiredpostage indicia is requested. For example, any or all of postage webapps 143B-143D may communicate with postal services system 110B vianetwork 150 to each request one or more postage indicia (e.g., postageweb apps 143B-143D may make individual postage indicia request and/orbulk postage indicia requests for multiple postage indicia). Inaccessing postal services system 110B, the postage web apps maycommunicate their postage indicia requests and/or other information(e.g., user credentials) from a respective one of client devices140B-140D to postage web service 160.

A postage indicia request of embodiments comprises informationsufficient to generate at least one desired postage indicia for therequesting user. Accordingly, a postage indicia request may includeinformation such as a postage amount, requested special service, mailclass, hidden postage information, insurance information, trackingnumber, etc. Moreover, postage indicia requests preferably include useridentification information (e.g., user account information, usercredentials (e.g., user name, password, digital certificate, etc.),and/or the like), such as may be used to validate the user as anauthorized user of the postal services system, to identify an accountfrom which value for the postage indicia is to be debited and/or towhich value is to be charged, to identify virtual PSD informationassociated with the requesting user, etc.

Postage web service 160 of embodiments may operate to authenticate theuser, such as using user identification information of the postageindicia requests and/or user credentials provided therein or therewith.Such authentication may operate to identify the user as being authorizedto receive the services of postal services system 110B. Additionally oralternatively, such authentication may associate the user with one ormore accounts (e.g., as may be represented by corresponding ones of thePSDs of virtual PSD information 122-124) accessible to postal servicessystem 120.

It should be appreciated that the requests for postage indicia made byclient devices 140B-140D may be made independently of any other of theclient devices, and thus may be received by postal services system 110Basynchronously, perhaps over a period of time. For example, as eachclient device of client devices 140B-140D is utilized by a user thereofto perform operations for which postage indicia are needed (e.g.,generating one or more letters, envelopes, or other correspondence,process shipping labels, etc.), requests for postage indicia may be madeto postal services system 110B. Accordingly, postage web service 160 ofthe illustrated embodiment comprises postage request queue 161 operableto store the requests for aggregation into one or more bulk postagerequest for multiple postage indicia.

At block 212 of the illustrated embodiment, postal services system 110Bgathers multiple postage indicia requests for the users and composes oneor more bulk postage indicia requests. For example, as shown in thefunctional block diagram of FIG. 3, postage web service 160 may receive(e.g., by indicia request receive logic 362 shown in the functionalblock diagram of the embodiment of postage web service 160 of FIG. 3)postage indicia requests from client devices 140B-140D and store thepostage indicia requests in a memory (e.g., postage request queue 161)for creating a bulk request for multiple indicia. Such bulk requests maythus consolidate multiple requests from different users into a singlebulk transaction, thereby facilitating serving a plurality ofindependent users by the postage metering system.

It should be appreciated that logic of postage web service 160 mayperform functions in addition to receiving indicia requests. Forexample, indicia request receive logic 362 of embodiments may utilizeuser identification information (e.g., user account information, usercredentials (e.g., user name, password, digital certificate, etc.),and/or the like), as may be included in or in association with indiciarequests, to validate the users as an authorized users of the postalservices system, to identify an account or accounts from which value forthe postage indicia is to be debited and/or to which value is to becharged, to identify virtual PSD information associated with therequesting users, etc. Additionally or alternatively, useridentification information and/or client device information (e.g., MACaddress information, IP address information, digital certificate,electronic serial number (ESN), hardware and/or software registration orserial numbers, etc., may be utilized by logic of postage web service160 for associating indicia which is ultimately generated with theindicia request, and thus the requesting client device. For example,indicia request receive logic 362 may collect such information andprovide that information to indicia response logic 363 for use inreturning generated indicia to appropriate ones of client devices140B-140D.

Continuing the operation at block 212 of the illustrated embodiment,having received indicia requests, logic (e.g., bulk request processinglogic 364) of postage web service 160 may access the postage requestqueue and aggregate a plurality of postage indicia requests to compose abulk request for multiple postage indicia according to embodiments ofthe invention. Such bulk requests for postage indicia may be composedperiodically, aperiodically, etc. For example, when a threshold numberof appropriate postage indicia requests have been queued, postage webservice 160 may operate to compose one or more bulk postage request forthe queued postage indicia requests. Additionally or alternatively,postage web service 160 may operate to compose one or more bulk postagerequests for queued postage indicia requests after some predeterminedperiod of time (e.g., once a minute, once an hour, etc.). Such periodicand aperiodic operation may be combined, such as to provide forcomposing one or more bulk postage indicia request if a threshold numberof appropriate postage indicia requests have not been queued within somepredetermined period of time.

Postage web service 160 of embodiments may operate to analyze thepostage indicia requests in order to associate appropriate postageindicia requests in a same bulk postage indicia request. For example,the queued postage indicia requests may be analyzed by bulk requestprocessing logic 364 to identify postage indicia requests having commonor compatible characteristics, such as a same postage value, a samepostal class, a same type of indicia, requested by users having accessto a same postage meter account, and/or the like. Accordingly, a bulkpostage indicia request may be comprised of a plurality of postageindicia requests sharing a same or similar characteristic, such as tofacilitate or optimize operation of a crypto module in generatingmultiple indicia in a same secure environment session. Postage requestqueue 161 of embodiments may, therefore, comprise a plurality of postagerequest queues providing queuing of requests sharing a same or similarcharacteristic.

As with the embodiment discussed above with respect to FIG. 2A, a bulkpostage indicia request of embodiments comprises information sufficientto generate multiple desired postage indicia for the requesting user.Accordingly, a bulk postage indicia request may include information suchas postage amounts, multiple special services, mail classes, hiddenpostage information, insurance information, tracking numbers, etc.Moreover, bulk postage indicia requests may include user identificationinformation (e.g., user account information, user credentials (e.g.,user name, password, digital certificate, etc.), and/or the like), suchas may be used to validate the user as an authorized user of the postalservices system, to identify an account from which value for the postageindicia is to be debited and/or to which value is to be charged, toidentify virtual PSD information associated with the requesting user,etc.

Having composed a bulk postage indicia request, in further operation atblock 212 of embodiments the bulk postage indicia request of embodimentsis provided to postage server 120 for processing and generation ofmultiple PSD. For example, assuming user authentication is successfuland a suitable number of indicia requests have been received andaggregated to form a bulk postage indicia request, postage web server160 may pass the bulk postage indicia request, or some portion thereof,to postage server 120 for initiating a session for generating multiplepostage indicia.

At block 213 of the illustrated embodiment, logic of postage server 120operates to process the bulk postage indicia request for facilitatingoperation by cryptocard 125 in generating multiple postage indicia in asame secure environment session. For example, postage server 120 mayoperate to associate the bulk postage request with particular virtualPSD information of virtual PSD information 122-124 storing postage valueavailable to the user making the request. Additionally or alternatively,postage server 120 may provide processing of the bulk postage indiciarequest to provide the request, or some portion thereof, in a formusable by the PSD, such as to format the data for use by the PSD (e.g.,serialize the data in a form understandable by logic of the PSD), toutilize a protocol compatible with the PSD, etc.

In operation according to embodiments, processing with respect to thebulk postage indicia request provided by logic of postal services system110B may comprise a number of operations for facilitating postageindicia generation by cryptocard using virtual PSD information of postaldatabase 121. For example, logic of postal services system 110B maycalculate the total postage amount from the bulk postage indicia requestdata and determine if adequate total postage amount is available in theuser PSD record for the bulk postage indicia request before acquiring asecure module (e.g., cryptocard 125) for generation of the postageindicia.

At block 214 of the illustrated embodiment a PSD bulk request (e.g., thebulk postage indicia request as processed by postal services system110B) is provided to cryptocard 125. For example, after processing thebulk postage indicia request for facilitating operation by cryptocard125 in generating multiple postage indicia in a same secure environmentsession, logic of postal services system 110B may provide the PSD bulkrequest to cryptocard 125 to initiate generation of the multiple postageindicia. In operation according to embodiments, providing the PSD bulkrequest to the cryptocard by logic of postal services system 110B maycomprise a number of operations. For example, logic of postal servicessystem 110B may operate to select a particular crypto module (e.g.,cryptocard 125) for generation of the multiple postage indicia from aplurality of crypto modules (e.g., to select an available crypto module,to select a crypto module having specific capabilities, to provide loadbalancing among a pool of crypto modules, etc.). The selected cryptomodule may thereafter be locked for operation of the secure environmentsession to generate the multiple postage indicia.

It should be appreciated that the providing of the PSD bulk request maybe done in association with providing other data to the cryptocard. Forexample, logic of postal services system 110B may operate to select aparticular virtual PSD record for use in generating the multiple postageindicia. The virtual PSD information provided to cryptocard 125 may, forexample, be selected based upon a particular service provider providingservices to the users who's indicia requests are aggregated into thebulk postage indicia request and that the virtual PSD has sufficientaccount value associated therewith to support generation of therequested postage indicia. Additionally or alternatively, the virtualPSD information provided to cryptocard 125 may be selected based uponthe available value balance of the PSD (e.g., selection of a particularvirtual PSD having a lowest available value balance which is sufficientto provide the total value of the requested multiple postage indicia.The selected virtual PSD information of virtual PSD information 122-124may be locked (e.g., to prevent its simultaneous use with respect toanother crypto module, whereby value represented thereby may be consumedmore than once) and the selected virtual PSD information provided tocryptocard 125 in order to configure cryptocard 125 for operation as aparticular PSD.

Further, in association with the providing of the PSD bulk request tothe cryptocard, logic of postal services system 110B may acquire andlock a check point record for that crypto module (e.g., from postaldatabase 121). Such check point information may be utilized in providingan atomic transaction with respect to the generation of the multiplepostage indicia. That is, if operation to generate the multiple postageindicia is interrupted or otherwise fails to complete the completeprocess of generating all the multiple postage indicia, and possiblylogging information associated therewith, a check point recordindicating a state of the PSD prior to initiating the postage indiciageneration operation may be used to roll the PSD data back to its stateprior to initiating the failed multiple postage indicia generationtransaction. Such check point record information may be provided tocryptocard 125, such as with or in association with the virtual PSDinformation and/or PSD bulk request.

Having received the PSD bulk request according to flow 200B of theillustrated embodiment, cryptocard 125 operable as a PSD generates themultiple postage indicia of the PSD bulk request in a single secureenvironment session at block 215 of the illustrated embodiment. Here, aswith the embodiment discussed above with respect to flow 200A,cryptocard 125 of embodiments is operable to load and decrypt theappropriate virtual PSD information, configure the memory (e.g.,ascending register, descending register, strike count register, etc.) ofthe cryptocard as the corresponding PSD, generate each postage indiciaof the multiple postage indicia, update appropriate PSD data (e.g.,ascending register value, descending register value, strike countregister value, etc.), and encrypt the virtual PSD information foroffloading from the cryptocard. In operation according to embodiments,logic of cryptocard 125 may determine the number of postage indicia itis being requested to generate, determine the size of the memory for theindicia generation based on the total number of the postage requests,and generate multiple postage indicia data.

Logic of the PSD may, for example, operate to authenticate the request(e.g., as a request from a valid server or other requesting systemand/or as a request from a valid user or users). Additionally oralternatively, logic of the PSD may operate to verify that sufficientvalue is present in the PSD for generation of the requested postageindicia. For example, the PSD logic may implement a loop in which thevalue for each of the multiple requested postage indicia is identifiedand summed to determine a total value for the requested indicia, wherebythe total value may be compared to the value available from the PSD(e.g., the PSD descending register) to determine if sufficient value ispresent to allow generation of the multiple requested indicia. If,however, sufficient value is available, the logic of the PSD may againimplement a loop to generate each of the requested postage indicia,storing the generated postage indicia data for providing to the postageserver in a single response. In operation according to embodiments, theascending and descending registers of the PSD are adjusted as each ofthe multiple postage indicia are generated. Additionally, a loggingregister of embodiments of the PSD is used to sum the value of each ofthe generated postage indicia to provide a total amount used withrespect to logging data (e.g., used in generation of an audit indiciafor logging purposes).

As previously described, cryptocard 125 of embodiments may operate togenerate more than the requested multiple postage indicia whenperforming operation for generating multiple postage indicia in a singlesecure environment session. For example, logic of the cryptocard maygenerate logging and/or other data unique to the secure environmentmultiple postage indicia session. In operation according to embodiments,such logging data may include the number of indicia generated in thesession, the total value of the indicia generated, the time/date of thegeneration session (e.g., the starting time, the ending time, or both),the starting and/or ending register values (e.g., ascending register,descending register, etc.), transaction number or other transactionidentification information, meter/license number or other identificationinformation, and the like.

At block 216 of the illustrated embodiment, cryptocard 125 may returnlogging or audit information for the multiple postage indicia forprocessing, storage, and/or reporting by postal services system 110B.For example, after the cryptocard generates postage indicia data for amultiple postage indicia request, intermediary code for the cryptocardmay operate to write an audit log entry to the storage device (e.g.,within postal database 121). Such audit information may compriseinformation regarding the number, value, type, etc. of the generatedpostage indicia, identification of the PSD (e.g., virtual PSDinformation) used to generate the postage indicia, and/or the like.Additionally or alternatively, such audit information may comprise oneor more audit indicia, generated by cryptocard 125 in association withthe multiple postage indicia, providing aggregated audit information(e.g., ending register values, number of postage indicia generated,identification information for each of the multiple postage indicia,etc.). Any or all of the foregoing information may be further processed,stored, and/or reported by logic of postal services system 110B. Inoperation according to embodiments, after such audit log information iswritten successfully, logic of cryptocard 125 may provide the generatedpostage indicia data for the multiple postage indicia, the updatedvirtual PSD information, and updated check point record to logic ofpostal services system 110B outside of the secure environment.

Accordingly, at block 217 of the illustrated embodiment of flow 200B thegenerated multiple postage indicia are passed from the secureenvironment of cryptocard 125. For example, the generated multiplepostage indicia may be returned to logic of postage server 120 (e.g.,bulk request processing logic 364), such as for further processing andproviding to the requesting client device. It should be appreciated thatinformation in addition to that of the multiple postage indicia may bereturned from cryptocard 125 in association with the generated postageindicia. For example, cryptocard 125 may return the virtual PSDinformation, updated to reflect generation of the multiple postageindicia, for storage in postal database 121.

Processing of the multiple postage indicia returned from cryptocard 125by postage web service 160 of embodiments includes assigning thegenerated postage indicia to the corresponding requesting client devicesat block 218. For example, bulk request processing logic 364 may receivethe generated indicia and provide the multiple indicia to indiciaresponse logic 363, such as by storing the indicia to indicia storage361 for access and processing by the indicia response logic. Indiciaresponse logic 363 may operate to associate indicia of the multiplegenerated indicia with the appropriate users, user devices, and/orindicia requests, such as using information regarding the indiciarequests provided by indicia request receive logic 362.

At block 219, postal services system 110B returns appropriate ones ofthe generated multiple postage indicia to the requesting client devices.It should be appreciated that logic of postal services system 110B mayprovide further processing with respect to the generated multiplepostage indicia prior to its returning the generated multiple postageindicia to client device 140A. For example, postal services system 110Amay provide processing of the multiple postage indicia returned bycryptocard 125 to provide the postage indicia data, or some portionthereof, in a form usable by the requesting client devices or othersystems of system 100A, such as to format the data for use by clientdevices 140B-140D, for processing and communication by bridge server130, and/or for efficient communication via network 150. Embodiments ofpostal services system 110A may provide processing to associate theappropriate postage indicia with the particular bulk postage indiciarequest made by respective ones of postage web apps 143C-143D in orderto facilitate properly identifying the postage indicia with theoperations at client devices 140B-140D for which the postage indicia wasgenerated.

Having received the requested multiple postage indicia, client devices140B-140D may each independently print or otherwise consume theirrespective indicia of the multiple postage indicia at block 220. Forexample, each postage web app of postage web apps 143B-143D may receivecorresponding indicia data of the multiple postage indicia data andgenerate postage indicia image data packets (e.g., bitmap images of IBI,such as may comprise human readable information and machine readableinformation, such as PDF 417 or data matrix barcode) suitable forcontrolling an associated printer (e.g., a printer of printers142B-142D, respectively) to print postage indicia acceptable to a postalservice or other shipping service provider.

The multiple postage indicia as generated by postal services systems(e.g., postal services system 110A and/or postal services system 110B)of embodiments herein may comprise various forms and levels ofcompletion. For example, indicia data packets suitable for use incompleting generation of an acceptable postage indicium may be generatedand provided to a client (e.g., postage client 141A and/or postage webapps 143B-143D) for processing and completion of the final postageindicia. Additionally or alternatively, the postage indicia data packetsprovided by a postal service system may comprise an IBI “light” form ofindicia, whereby a reduced set of information is provided in the datapacket with which the client device prints or otherwise consumes thegenerated indicia, while complete IBI data is generated by the PSD ofthe postal services system for use in authenticating and/or auditing theresulting IBI light indicia. Details with respect to the generation anduse of IBI light indicia as may be utilized according to embodiments ofthe invention herein are shown and described in the above referencedpatent application entitled “Computer-Based Value-Bearing ItemCustomization Security”.

It should be appreciated that although the functional blocks of postageweb service 160 are described above with reference to flow 200Bproviding operation with respect to generation of multiple indiciarequested by multiple users, such functional blocks may be utilized forflow 200A providing operation with respect to generation of multipleindicia requested by a same user. For example, indicia request receivelogic 362, bulk request processing logic 364, and indicia response logic363, perhaps with supporting infrastructure such as indicia storage 361and/or postage request queue 161, may be disposed in client device 140A(e.g., provided as part of postage client 141A) of system 100A toprovide aggregation of indicia requests into a bulk postage indiciarequest. In one embodiment, indicia request receive logic 362 andindicia response logic 363 may interact with one or more applications(e.g., document generation software, postage metering software, etc.) toaccept postage indicia requests and provide postage indicia data inresponse thereto.

The foregoing embodiments provide generation of multiple indicia in asingle secure environment session in response to a bulk indicia request.The number of indicia that may be generated in a single secureenvironment session may, however, be limited (e.g., limitations may beestablished whereby up to 10, 25, 50, 100, 250, 500, etc., indicia maybe generated in a single session). For example, the number of indiciagenerated in a single secure environment session may be limited by theresources (e.g., processing capabilities, memory capacity, etc.) of aPSD providing the secure environment. Additionally or alternatively, thenumber of indicia generated in a single secure environment session maybe limited to prevent undesired operational results, such asunavailability of one or more PSD for use by other users for anexcessively long period of time, facilitating practicable rollback oftransactions for atomic operation of a bulk indicia request, etc.Accordingly, particularly large bulk indicia requests may be processedin a plurality of batches for generating the multiple indicia requestedthereby.

FIG. 4 shows flow 400 of an embodiment providing operation to generatemultiple indicia of a large bulk request in a plurality of smallerbatches. One or more (e.g., each) such smaller batches may themselvesoperate to generate multiple indicia in a single secure environmentsession according to embodiments herein. It should be appreciated thatthe processes of flow 400 may be performed by a postal service system(e.g., postal services system 110A and/or 110B) of embodiments of theinvention.

At block 401 of the illustrated embodiment of flow 400 a large bulkrequest, such as may be made by a client device or postage web service,is received by the postal services system. The large bulk request may befor multiple postage indicia for a single user (e.g., a bulk postageindicia request as utilized in flow 200A discussed above) and/or formultiple postage indicia for different users (e.g., a bulk postageindicia request as utilized in flow 200B discussed above). Irrespectiveof the particular users for which the multiple postage indicia are beingrequested, the large bulk request of embodiments is for a number ofpostage indicia greater (e.g., >10, 25, 50, 100, 250, 500, etc.) than anumber that is to be served in a single secure environment session.

Postal services system of embodiments herein may operate to provide forgeneration of postage indicia using various PSD models. For example, auser or service provider serving one or more users may be provided witha single PSD from which all postage indicia for the user or serviceprovider is to be generated. Such a model, although providing limitedbandwidth for generation of postage indicia, provides a model in which asingle meter balance may be managed and maintained, thereby providing asimple and relatively inexpensive postage metering solution.Alternatively, a user or service provider serving one or more users maybe provided with a pool of PSDs from which postage indicia for the useror service provider is to be generated. Such a model, although providingmultiple meter balances to be managed and maintained, provides a modelin which improved bandwidth for generation of postage indicia isavailable, thereby facilitating serving multiple requests or otherwisegenerating multiple indicia at a time in parallel.

Accordingly, at block 402 of the illustrated embodiment a determinationis made as to whether the account to be used with respect to the largebulk request is on a pooled PSD record model (e.g., multiple virtualPSDs are maintained for configuring a plurality of cryptocards forsimultaneous use in association with the account). If it is determinedthat the account for the large bulk request is on a pooled PSD recordmodel, processing according to the illustrated embodiment proceeds toblock 409, whereby operation as described below is performed. However,if it is determined that the account for the large bulk request is noton a pooled PSD record model, processing according to the illustratedembodiment proceeds to block 403.

At block 403 the large bulk request is broken into smaller batchrequests. For example, the large bulk request may be divided into two ormore smaller batch requests, wherein each of the smaller batch requestscomprises requests for a number of postage indicia less than or equal toa number that is to be served in a single secure environment session.The smaller batch requests may each comprise requests for an equalnumber of postage indicia (e.g., each smaller batch request comprisingthe number of postage indicia requests of the large bulk request dividedby a smallest denominator which provides a resulting number of requestscapable of accommodation in a single secure environment session) or fordifferent numbers of postage indicia (e.g., one or more smaller batchrequests comprising requests for a maximum number of postage indiciathat can be accommodated in a single secure session and one smallerbatch requests comprising requests for the remaining number of postageindicia to complete the large bulk request). The size and/or number ofsmaller batch requests broken out of a larger bulk request may bedetermined based upon a number of factors, such as to provide loadbalancing across available PSDs and/or postal servers, to providerequests having a number of requested postage indicia efficiently servedby a PSD in a single secure environment session, to provide smallerrequest having a maximum number of postage indicia requests serviceableby a PSD in a single secure environment, etc.

The virtual PSD record for the virtual PSD to be used with respect tothe account serving the large bulk request is preferably locked at block404 (e.g., to prevent its simultaneous use with respect to anothercrypto module, whereby value represented thereby may be consumed morethan once) and the selected virtual PSD information provided to acryptocard in order to configure the cryptocard for operation as aparticular PSD. The cryptocard to which the virtual PSD information isprovided is preferably locked to prevent attempts to simultaneouslyconfigure the cryptocard as another/different PSD in response to anotherrequest. Additionally, a check point record for that crypto module maybe acquired and locked, according to embodiments of the invention.

At block 405 of the illustrated embodiment the postage indicia for eachof the smaller batch requests are generated and obtained. For example,each of the smaller batch requests may be provided to the PSD (e.g., asdiscussed above with respect to block 204 of flow 200A) serially forgeneration of the postage indicia (e.g., as discussed above with respectto block 205 of flow 200A or block 215 of flow 200B). The resultinggenerated postage indicia may then be received from the PSD after eachsuch smaller batch request is processed.

Having generated the postage indicia of all of the smaller batchrequests, the updated virtual PSD record is offloaded from the PSD andunlocked at block 406. Additionally, the cryptocard is preferablyunlocked and the check point record is updated and unlocked to therebymake the cryptocard available for use in serving a different request.

At block 407 of the illustrated embodiment the postage indicia datareturned in response to each of the smaller batch requests of the largebulk request are aggregated into a large bulk request response. Forexample, the multiple postage indicia data for each of the smaller batchrequests may be processed to compose a single response to the large bulkrequest from which the smaller batch requests were divided. Thereafter,the large bulk request response may be provided to a node (e.g., postageclient 141A or postage web service 160) which made the large bulkrequest, at block 408.

If, however, it was determined at block 402 that the account for thelarge bulk request is on a pooled PSD record model, processing accordingto the illustrated embodiment proceeds to block 409 wherein the largebulk request is broken into smaller batch requests. For example, thelarge bulk request may be divided into two or more smaller batchrequests as discussed with respect to operation at block 403 above.

One or more virtual PSD record of the pool of virtual PSDs to be usedwith respect to the account serving the large bulk request arepreferably locked at block 410 (e.g., to prevent its simultaneous usewith respect to another crypto module, whereby value represented therebymay be consumed more than once) and the selected virtual PSD informationprovided to a corresponding number of cryptocards in order to configurethe cryptocards each for operation as a particular PSD. The number ofvirtual PSDs to be utilized in serving the smaller batch requests, andthus the number of virtual PSD records selected, may dependent on thenumber of PSDs in the pool, the number of PSDs currently not otherwisein use, the number of smaller batch requests resulting from the largebulk request, a number of PSDs determined to facilitate generation ofthe multiple postage indicia within a satisfactory amount of time, etc.The cryptocards to which the virtual PSD information is provided arepreferably locked to prevent attempts to simultaneously configure thecryptocards as another/different PSD in response to another request.Additionally, check point records for those crypto modules may beacquired and locked, according to embodiments of the invention.

Having configured the PSDs for serving the postage indicia requests, theparticular ones of the unfulfilled smaller batch requests are assignedto available ones of the PSDs for operation to generate postage indiciaat block 411. For example, assuming the large bulk request resulted in 3smaller batch requests and the account associated with the postageindicia requests (e.g., the user's account, the service provider'saccount, etc.) then has 2 PSDs which are not otherwise in use, 2 virtualPSDs may be utilized to provide PSDs for generating the postage indicia.Accordingly, in an initial pass of operation at block 411, 2 of thesmaller batch requests may be matched with the 2 PSDs for postageindicia generation, while the third smaller batch requests remainsqueued for matching to a PSD as one becomes available in a subsequentiteration.

At block 412 of the illustrated embodiment the postage indicia for eachof the smaller batch requests currently matched to a PSD are generatedand obtained. For example, each of the matched smaller batch requestsmay be provided to their respective PSDs (e.g., as discussed above withrespect to block 204 of flow 200A or block 215 of flow 200B) in parallelfor generation of the postage indicia (e.g., as discussed above withrespect to block 205 of flow 200A). It should be appreciated thatoperation of the multiple PSDs serving the different smaller batchrequests may be asynchronous, whereby such operation may begin and/orend at different times. Nevertheless, the resulting generated postageindicia may be received from the PSD after each such smaller batchrequest is processed.

Having received the generated postage indicia from one or more of thePSDs, a determination is made at block 413 of the illustrated embodimentas to whether any smaller batch requests remain to be served. If one ormore smaller batch requests remain to be served, processing according tothe illustrated embodiment returns to block 411 whereby some or all suchunfulfilled smaller batch requests are matched with an available PSD.If, however, all smaller batch requests have been served (i.e., thepostage indicia for each smaller batch request of the large bulk requesthave been obtained), processing according to the illustrated embodimentproceeds to blocks 406 et seq. whereby the PSD records are unlocked, thesmaller batch requests responses are composed into a large bulk requestresponse, and the large bulk request response is provided to the node(e.g., postage client 141A or postage web service 160) which made thelarge bulk request.

It should be appreciated that, although embodiments have been describedabove whereby a single smaller batch request or a single bulk postageindicia request are served by a PSD (e.g., a cryptocard configured withappropriate virtual PSD information) at any one time, where theprocessor of a PSD supports multi-threading embodiments may operate touse such PSDs to serve more than one such request at a time. Forexample, where cryptocard 125 supports multi-threading (e.g., using the4765 cryptographic coprocessor available from International BusinessMachines Corporation), multiple virtual PSD records may be providedthereto in order to serve a corresponding number of smaller batchrequests or bulk postage indicia requests in parallel according toembodiments of the invention.

From the forgoing it can be appreciated that the bulk requests ofembodiments herein may be utilized to provide improved performance andan enhanced user experience by reducing the round trip calls from theclient to the server of embodiments. Moreover, in many configurationsthe postal services system communicates with the crypto module using aperipheral component interconnect express (PCIE) bus or similarinterconnect bus, rather than a direct memory access (DMA) or similarhigh speed bus, and thus the bulk and/or batch requests of embodimentsherein facilitate improved performance with respect to the internaloperation of the postal services system requesting and obtaining theindicia. Further, the bulk and batch requests made with respect to acrypto module of embodiments are atomic, whereby rollback of the fulltransaction upon a failure to successfully generate one indicia of thebulk/batch request is simplified (i.e., previously generated indicia ofthe bulk/batch request have not been passed serially from the secureenvironment and thus may be included in the rollback of the registervalues rather than voided and processed for refund externally from thesecure environment).

It should be appreciated that the bulk requests for multiple indiciafacilitated by embodiments of the present invention may be utilized in avariety of use situations. For example, a use scenario for the “singleuser” bulk request (here single user meaning a single enterprise,although multiple users within that enterprise may in fact be sourcingrequests) may comprise a fulfillment warehouse situation. In such awarehouse situation, traditionally items may be picked and placed inshipping containers and an associated shipping label (e.g., containingpostage value or prepaid value for shipping services) generated for eachcontainer as that container is processed serially on the fulfillmentline. If generation of one such shipping label were to fail, thefulfillment line is delayed while the problem is resolved. However, inoperation according to embodiments herein, a single shipping label bulkrequest may be made for a plurality of shipping labels (e.g., allshipping labels for a shipment processing period, such as a fraction ofan hour, an hour, a fraction of a day, a day, etc.), whereby thetransaction is atomic (i.e., either all requested shipping labels arereturned or no shipping labels are returned). The fulfillment workflowmay thus be revised, for example, such that all the shipping labels aregenerated in advance with the knowledge that all requested shippinglabels will complete if any such shipping labels complete the generationprocess. Once all the indicia data for the shipping labels is generated,all such shipping labels may be printed. Having successfully generatedall the indicia data to be generated for a shipment processing period,problems that may otherwise result from failures or delays in generatingshipping labels are eliminated with respect to further fulfillmentprocessing. With this model the fulfillment process may be performedfaster and more reliably knowing that all the shipping label indiciageneration for all the packages to be fulfilled will be/was successful.

Although the present invention and its advantages have been described indetail, it should be understood that various changes, substitutions andalterations can be made herein without departing from the spirit andscope of the invention as defined by the appended claims. Moreover, thescope of the present application is not intended to be limited to theparticular embodiments of the process, machine, manufacture, compositionof matter, means, methods and steps described in the specification. Asone of ordinary skill in the art will readily appreciate from thedisclosure of the present invention, processes, machines, manufacture,compositions of matter, means, methods, or steps, presently existing orlater to be developed that perform substantially the same function orachieve substantially the same result as the corresponding embodimentsdescribed herein may be utilized according to the present invention.Accordingly, the appended claims are intended to include within theirscope such processes, machines, manufacture, compositions of matter,means, methods, or steps.

What is claimed is:
 1. A system comprising: a database storing aplurality of crypto module configuration records, wherein each cryptomodule configuration record of the plurality of crypto moduleconfiguration records comprises information operable to configure secureprocessor-based crypto modules as corresponding secure processor-basedvalue bearing indicia generation crypto modules; and a secureprocessor-based crypto module having a processor and a memory disposedwithin a secure environment, wherein the secure processor-based cryptomodule comprises logic executable by the secure processor-based cryptomodule to: configure the secure processor-based crypto module as asecurity device for a particular value account based on data of a cryptomodule configuration record of the plurality of crypto moduleconfiguration records stored in the database; perform value bearingindicia generation in which multiple value bearing indicia data aregenerated in a single secure environment session using the crypto moduleconfiguration record; update the crypto module configuration recordbased on the multiple value bearing indicia data generated in the singlesecure environment session; and offload the updated crypto moduleconfiguration record from the secure environment to the database.
 2. Thesystem of claim 1, wherein the single secure environment session eithersuccessfully completes all operations of a set of operations by thelogic for generation of the multiple value bearing indicia data or rollsdata of the crypto module configuration record back to its state priorto initiating the single secure environment session.
 3. The system ofclaim 1, wherein a set of operations performed in the single secureenvironment session by the logic executable by the secureprocessor-based crypto module includes an operation to receive a requestfor the multiple value bearing indicia data, and an operation to outputthe generated multiple value bearing indicia data.
 4. The system ofclaim 1, further comprising: an indicia generation server operativelycoupled to the secure processor-based crypto module and in communicationwith the database, wherein logic executed by the indicia generationserver initiates the generation of the multiple value bearing indiciadata in the single secure environment session by the secureprocessor-based crypto module by passing a single request for themultiple value bearing indicia data to the secure processor-based cryptomodule and receives the generated multiple value bearing indicia datareturned by the secure processor-based crypto module.
 5. The system ofclaim 4, further comprising: a postage web service in communication withthe indicia generation server, wherein the postage web service isconfigured to receive a plurality of separate requests for value bearingindicia and to provide a bulk value bearing indicia request to theindicia generation server to generate the multiple value bearing indiciadata in the single secure environment session.
 6. The system of claim 1,further comprising: an indicia generation client configured to requestgeneration of value bearing indicia, wherein the multiple value bearingindicia data generated in the single secure environment session aregenerated in response to a bulk indicia request for the multiple valuebearing indicia data made by the indicia generation client.
 7. Thesystem of claim 1, further comprising: a plurality of indicia generationclients configured to request generation of value bearing indicia,wherein the multiple value bearing indicia data generated in the singlesecure environment session are generated in response to a bulk indiciarequest formed from aggregating requests made by the plurality ofindicia generation clients.
 8. The system of claim 1, wherein the valuebearing indicia are postage indicia, and wherein the database comprises:a postal database storing a plurality of virtual postal security device(PSD) records, wherein each virtual PSD record of the plurality ofvirtual PSD records comprises information operable to configure thesecure processor-based crypto module as a corresponding PSD having apostage value represented therein, wherein the multiple value bearingindicia data generated in the single secure environment session aregenerated using a same PSD configuration of the crypto module.
 9. Asystem comprising: a database storing a plurality of crypto moduleconfiguration records, wherein each crypto module configuration recordof the plurality of crypto module configuration records comprisesinformation operable to configure secure processor-based crypto modulesas corresponding secure processor-based value bearing indicia generationcrypto modules; and a secure processor-based crypto module having aprocessor and a memory disposed within a secure environment, wherein thesecure processor-based crypto module comprises logic executable by thesecure processor-based crypto module to: configure the secureprocessor-based crypto module as a security device for a particularvalue account based on data of a crypto module configuration record ofthe plurality of crypto module configuration records stored in thedatabase; perform a set of operations to generate multiple value bearingindicia data in a single secure environment session in response to arequest to generate the multiple value bearing indicia data, the set ofoperations comprising: generating the multiple value bearing indiciadata within the secure environment of the secure processor-based cryptomodule using data of the crypto module configuration record; updatingthe data of the crypto module configuration record to reflect generationof the multiple value bearing indicia data; outputting the generatedmultiple value bearing indicia data; and offloading the crypto moduleconfiguration record having the updated data from the secure environmentto the database.
 10. The system of claim 9, wherein the single secureenvironment session either successfully completes all operations of aset of operations by the logic for generation of the multiple valuebearing indicia data or rolls data of the crypto module configurationrecord back to its state prior to initiating the single secureenvironment session.
 11. The system of claim 9, further comprising: anindicia generation server operatively coupled to the secureprocessor-based crypto module and in communication with the database,wherein logic executed by the indicia generation server initiatesgeneration of the multiple value bearing indicia data in the singlesecure environment session by the secure processor-based crypto moduleby passing a single request for the multiple value bearing indicia datato the secure processor-based crypto module and receives the generatedmultiple value bearing indicia data returned by the secureprocessor-based crypto module.
 12. The system of claim 11, furthercomprising: a postage web service in communication with the indiciageneration server, wherein the postage web service is configured toreceive a plurality of separate requests for value bearing indicia andto provide a bulk value bearing indicia request to the indiciageneration server to generate the multiple value bearing indicia data inthe single secure environment session.
 13. The system of claim 9,further comprising: an indicia generation client configured to requestgeneration of value bearing indicia, wherein the multiple value bearingindicia data generated in the single secure environment session aregenerated in response to a bulk indicia request for the multiple valuebearing indicia data made by the indicia generation client.
 14. Thesystem of claim 9, further comprising: a plurality of indicia generationclients configured to request generation of value bearing indicia,wherein the multiple value bearing indicia data generated in the singlesecure environment session are generated in response to a bulk indiciarequest formed from aggregating requests made by the plurality ofindicia generation clients.
 15. The system of claim 9, wherein the valuebearing indicia are postage indicia, and wherein the database comprises:a postal database storing a plurality of virtual postal security device(PSD) records, wherein each virtual PSD record of the plurality ofvirtual PSD records comprises information operable to configure thesecure processor-based crypto module as a corresponding PSD having apostage value represented therein, wherein the multiple value bearingindicia data generated in the single secure environment session aregenerated using a same PSD configuration of the crypto module.
 16. Asystem comprising: a database storing a plurality of crypto moduleconfiguration records, wherein each crypto module configuration recordof the plurality of crypto module configuration records comprisesinformation operable to configure secure processor-based crypto modulesas corresponding secure processor-based value bearing indicia generationcrypto modules; a secure processor-based crypto module having aprocessor and a memory disposed within a secure environment, wherein thesecure processor-based crypto module comprises logic executable by thesecure processor-based crypto module to: perform value bearing indiciageneration in which multiple value bearing indicia data in a singlesecure environment session using a crypto module configuration record ofthe plurality of crypto module configuration records loaded in thememory, wherein the single secure environment session eithersuccessfully completes all operations of a set of operations by thelogic for generation of the multiple value bearing indicia data or rollsdata of the crypto module configuration record back to its state priorto initiating the single secure environment session; and update thecrypto module configuration record stored at the database based on themultiple value bearing indicia data upon successful completion of theset of operations; and an indicia generation server operatively coupledto the secure processor-based crypto module and in communication withthe database, wherein logic executed by the indicia generation serverinitiates the generation of the multiple value bearing indicia data inthe single secure environment session by the secure processor-basedcrypto module by passing a single request for the multiple value bearingindicia data to the secure processor-based crypto module and receivesthe generated multiple value bearing indicia data returned by the secureprocessor-based crypto module.
 17. The system of claim 16, wherein thelogic executed by the secure processor-based crypto module configuresthe secure processor-based crypto module as a security device for aparticular value account using data of the crypto module configurationrecord.
 18. The system of claim 16, wherein the set of operationsperformed in the single secure environment session by the logic executedby the secure processor-based crypto module include an operation toreceive a request for the multiple value bearing indicia data, operationto generate the multiple value bearing indicia data within the secureenvironment of the secure processor-based crypto module using data ofthe crypto module configuration record, an operation to output thegenerated multiple value bearing indicia data, and an operation tooffload the updated crypto module configuration record from the secureenvironment to the database.
 19. The system of claim 16, furthercomprising: an indicia generation client configured to requestgeneration of value bearing indicia from the indicia generation server,wherein the multiple value bearing indicia data generated in the singlesecure environment session are generated in response to a bulk indiciarequest for the multiple value bearing indicia data made by the indiciageneration client.
 20. The system of claim 16, further comprising: aplurality of indicia generation clients configured to request generationof value bearing indicia from the indicia generation server, wherein themultiple value bearing indicia data generated in the single secureenvironment session are generated in response to a bulk indicia requestformed from aggregating requests made by the plurality of indiciageneration clients.
 21. The system of claim 16, wherein the indiciageneration server comprises a postage server and the value bearingindicia are postage indicia, and wherein the database comprises: apostal database storing a plurality of virtual postal security device(PSD) records, wherein each virtual PSD record of the plurality ofvirtual PSD records comprises information operable to configure thesecure processor-based crypto module as a corresponding PSD having apostage value represented therein, wherein the multiple value bearingindicia data generated in the single secure environment session aregenerated using a same PSD configuration of the crypto module.
 22. Thesystem of claim 21, further comprising: a postage web service incommunication with the postage server, wherein the postage web serviceis configured to receive a plurality of separate requests for postageindicia and to provide a bulk postage indicia request to the postageserver to generate the multiple value bearing indicia data in the singlesecure environment session.
 23. The system of claim 22, wherein thepostage web service comprises: indicia request receive logic configuredto receive the plurality of separate requests; a postage request queueconfigured to store received ones of the plurality of separate requests;bulk request processing logic configured to aggregate selected ones ofthe plurality of separate requests stored in the postage request queueinto the bulk postage indicia request and configured to obtain and storepostage indicia data of the generated multiple value bearing indiciadata; and indicia response logic configured to assign appropriatepostage indicia data of the stored postage indicia data of the generatedmultiple value bearing indicia data to corresponding requesting clients.